破伤风和肉毒杆菌神经毒素的膜相互作用:光活化磷脂的光标记研究。

Journal de physiologie Pub Date : 1990-01-01
G Schiavo, P Boquet, B R Dasgupta, C Montecucco
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引用次数: 0

摘要

破伤风和肉毒杆菌神经毒素(TeNT和BoNT)与神经组织有很强的特异性结合,这可以从它们的效力和仅限于神经系统的作用中推断出来。这些性质的分子基础目前尚不清楚。作为第一种方法,我们研究了TeNT和BoNT与模型膜的相互作用,通过在脂质分子的不同位置携带光感受器基团的磷脂类似物进行光标记,以探测不同的膜区域。我们发现在中性pH下,TeNT和BoNTs (A、B和E型)吸附在带负电荷的脂质体表面。多涎神经节脂苷只略微增加这种相互作用,因此表明它们对毒素脂质结合的贡献很小。在此基础上,我们提出梭状芽孢杆菌神经毒素通过与带负电荷的脂质(包括神经节脂苷)的主要非特异性相互作用和与多涎神经节脂苷的特异性但较弱的相互作用与脂质结合。在酸性pH值下,这些神经毒素的两条链都被位于膜疏水环境中的光基团强烈标记,其pH依赖性与内体腔内达到的pH值范围重叠。这一结果与它们插入脂质双分子层的观点是一致的,这与梭状菌神经毒素可能通过细胞内低pH区室渗透到细胞内的观点是一致的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Membrane interactions of tetanus and botulinum neurotoxins: a photolabelling study with photoactivatable phospholipids.

Tetanus and botulinum neurotoxins (TeNT and BoNT) bind strongly and specifically to the nervous tissue, as it can be inferred from their potency and from their effects restricted to the nervous system. The molecular basis of these properties are presently unknown. As a first approach, we have investigated the interaction of TeNT and BoNT with model membranes by photolabelling with phospholipid analogues carrying the photoreceptor group at different positions of the lipid molecule in order to probe different membrane regions. We found that at neutral pH TeNT and BoNTs (type A, B and E) adsorb onto the surface of negatively charged liposomes. Polysialogangliosides increase this interaction only slightly thus suggesting that they provide a minor contribution to toxin lipid binding. On this basis we propose that clostridial neurotoxins bind to lipids via both a predominant unspecific interaction with negatively charged lipids (including gangliosides) and a specific, but weaker, interaction with polysialogangliosides. At acidic pH values both chains of these neurotoxins are labelled strongly by photogroups located in the hydrophobic milieu of the membrane with a pH dependence that overlaps the range of pH values reached in the endosomal lumen. This result is consistent with their insertion into the lipid bilayer in agreement with the idea that clostridial neurotoxins may penetrate into cells via intracellular low pH compartments.

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